If the x axis is time ( and the y axis distance), then the faster objects slope will be steeper.
nope it stays the same
it is true
Velocity does depend on distance. Velocity = Distance/Time
The mass of the object doesn't matter, but the answer does depend on the angle (steepness) of the ramp.
Displacement and overall distance are but the distance travelled does depend on the path.
The two things that work depend on are force and distance.
velocity and distance.
No, it depends on radial acceleration.
Velocity does depend on distance. Velocity = Distance/Time
The mass of the object doesn't matter, but the answer does depend on the angle (steepness) of the ramp.
The answer will depend on how quickly, and to what temperature the geyser heats the water.The answer will depend on how quickly, and to what temperature the geyser heats the water.The answer will depend on how quickly, and to what temperature the geyser heats the water.The answer will depend on how quickly, and to what temperature the geyser heats the water.
The distance doesn't depend on the mass.
It really depends on what you want the sentence to say.My sons depend on me to make money.
shotgun=short distance m16=long distance it depend of you shotgun=short distance m16=long distance it depend of you
Displacement and overall distance are but the distance travelled does depend on the path.
That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.That would also depend on the distance. Use the formula distance = speed x time. Solving for time: time = distance / speed.
The answer will depend on where the distance to the polygon is being measured from.
The two things that work depend on are force and distance.
You don't have to depend on people all the time to cheer you up.